Aerogel

Aerogel

Aerogel is a low-density solid-state material derived from gel in which the liquid component of the gel has been replaced with gas. The result is an extremely low density solid with several remarkable properties, most notably its effectiveness as a thermal insulator. It is nicknamed frozen smoke,cite web | last =Taher | first =Abul | title = Scientists hail ‘frozen smoke’ as material that will change world | work = News Article | publisher = Times Online | date = 2007-08-19 | url =http://www.timesonline.co.uk/tol/news/uk/science/article2284349.ece | format = Web | accessdate = 2007-08-22 ] solid smoke or blue smoke due to its semi-transparent nature and the way light scatters in the material; however, it feels like expanded polystyrene (Styrofoam) to the touch.

Aerogel was first created by Steven Kistler in 1931, as a result of a bet with Charles Learned over who could replace the liquid inside a jam (jelly) jar with gas without causing shrinkage. [cite journal
author = Kistler S. S.
title = Coherent expanded aerogels and jellies
journal = Nature
year = 1931
volume = 127
issue = 3211
pages = 741
doi =10.1038/127741a0
] [cite journal
author = Kistler S. S.
title = Coherent Expanded-Aerogels
journal = Journal of Physical Chemistry
year = 1932
volume = 36
issue = 1
pages = 52–64
doi = 10.1021/j150331a003
]

Aerogels are produced by extracting the liquid component of a gel through supercritical drying. This allows the liquid to be slowly drawn off without causing the solid matrix in the gel to collapse from capillary action, as would happen with conventional evaporation. The first aerogels were produced from silica gels. Kistler's later work involved aerogels based on alumina, chromia and tin oxide. Carbon aerogels were first developed in the late 1980s. [cite journal
author = Pekala R. W.
title = Organic aerogels from the polycondensation of resorcinol with formaldehyde
journal = Journal of Material Science
year = 1989
volume = 24
issue = 9
pages = 3221–3227
doi = 10.1007/BF01139044
]

Properties

To the touch, aerogels feel like a light but rigid foam, something between Styrofoam and the green floral foam used for arranging flowers. Despite what their name may suggest, aerogels are dry materials and do not resemble a gel in their physical properties; the name comes from the fact that they are derived from gels. Pressing softly on an aerogel typically does not leave a mark; pressing more firmly will leave a permanent dimple. Pressing firmly enough will cause a catastrophic breakdown in the sparse structure, causing it to shatter like glass—a property known as "friability". Despite the fact that it is prone to shattering, it is very strong structurally. Its impressive load bearing abilities are due to the dendritic microstructure, in which spherical particles of average size 2-5 nm are fused together into clusters. These clusters form a three-dimensional highly porous structure of almost fractal chains, with pores smaller than 100 nm. The average size and density of the pores can be controlled during the manufacturing process.

Aerogels are good thermal insulators because they almost nullify three methods of heat transfer (convection, conduction and radiation). They are good convective inhibitors because air cannot circulate throughout the lattice. Silica aerogel is an especially good conductive insulator because silica is a poor conductor of heat—a metallic aerogel, on the other hand, would be a less effective insulator. Carbon aerogel is a good radiative insulator because carbon absorbs the infrared radiation that transfers heat. The most insulative aerogel is silica aerogel with carbon added to itFact|date=June 2008.

Due to its hygroscopic nature, aerogel feels dry and acts as a strong desiccant. Persons handling aerogel for extended periods of time should wear gloves to prevent the appearance of dry brittle spots on their hands.

Since it is 99.8% air, it appears semi-transparent. The color it does have is due to Rayleigh scattering of the shorter wavelengths of visible light by the nanosized dendritic structure. This causes it to appear smoky blue against dark backgrounds and yellowish against bright backgrounds.

Aerogels by themselves are hydrophilic, but chemical treatment can make them hydrophobic. If they absorb moisture they usually suffer a structural change, such as contraction, and deteriorate, but degradation can be prevented by making them hydrophobic. Aerogels with hydrophobic interiors are less susceptible to degradation than aerogels with only an outer hydrophobic layer, even if a crack penetrates the surface. Hydrophobic treatment facilitates processing because it allows the use of a water jet cutter.

Types

Silica aerogels

Silica aerogel is the most common type of aerogel and the most extensively studied and used. It is a silica-based substance, derived from silica gel. The world's lowest-density solid is a silica nanofoam at 1 mg/cm3, [http://www.llnl.gov/IPandC/technology/profile/aerogel/Terms/index.php Aerogels Terms] . LLNL.] which is the evacuated version of the record-aerogel of 1.9 mg/cm3." [http://www.llnl.gov/str/October03/NewsOctober03.html Lab's aerogel sets world record] ". "LLNL Science & Technology Review". October 2003.] The density of air is 1.2 mg/cm3.Groom, D.E. [http://pdg.lbl.gov/2007/reviews/atomicrpp.pdf Abridged from Atomic Nuclear Properties] . Particle Data Group: 2007.]

Silica aerogel strongly absorbs infrared radiation. It allows the construction of materials that let light into buildings but trap heat for solar heating.

It has remarkable thermal insulative properties, having an extremely low thermal conductivity: from 0.03 W/m·K [Thermal conductivity from the [http://hbcpnetbase.com/ CRC Handbook of Chemistry and Physics] , 85th Ed. section 12, p. 227] down to 0.004 W/m·K, which correspond to R-factors of 14 to 105 for 3.5 inch thickness. For comparison, typical wall insulation is 13 for 3.5 inch thickness. Its melting point is 1,473 K (1,200 °C or 2,192 °F).

Silica aerogel holds 15 entriesFact|date=August 2007 in "Guinness World Records" for material properties, including best insulator and lowest-density solid.

Carbon aerogels

Carbon aerogels are composed of particles with sizes in the nanometer range, covalently bonded together. They have very high porosity (over 50%, with pore diameter under 100 nm) and surface areas ranging between 400–1000 m²/g. They are often manufactured as composite paper: non-woven paper made of carbon fibers, impregnated with resorcinol-formaldehyde aerogel, and pyrolyzed. Depending on the density, carbon aerogels may be electrically conductive, making composite aerogel paper useful for electrodes in capacitors or deionization electrodes. Due to their extremely high surface area, carbon aerogels are used to create supercapacitors, with values ranging up to thousands of farads based on a capacitance of 104 F/g and 77 F/cm³. Carbon aerogels are also extremely "black" in the infrared spectrum, reflecting only 0.3% of radiation between 250 nm and 14.3 µm, making them efficient for solar energy collectors.

The term "aerogel" has been incorrectly used to describe airy masses of carbon nanotubes produced through certain chemical vapor deposition techniques—such materials can be spun into fibers with strength greater than kevlar and unique electrical properties. These materials are not aerogels, however, since they do not have a monolithic internal structure and do not have the regular pore structure characteristic of aerogels.

Alumina aerogels

Aerogels made with aluminium oxide are known as alumina aerogels. These aerogels are used as catalysts, especially when "metal-doped" with another metal. Nickel-alumina aerogel is the most common combination. Alumina aerogels are also examined by NASA for capturing of hypervelocity particles; a formulation doped with gadolinium and terbium could fluoresce at the particle impact site, with amount of fluorescence dependent on impact velocity.

Other aerogels

SEAgel is a material similar to organic aerogel, made of agar.

Chalcogels are a type of aerogel made of chalcogens (the column of elements on the periodic table beginning with oxygen) such as sulfur and selenium, platinum, and other elements. [Biello, David [http://sciam.com/article.cfm?chanId=sa003&articleId=044B7489-E7F2-99DF-3433709C76B127DF Heavy Metal Filter Made Largely from Air. "Scientific American", 2007-07-26. Retrieved on 2007-08-05.] Research is ongoing, and metals less expensive than platinum have also been used in its creation.

Aerogels made of Cadmium selenide quantum dots in a porous 3-D network have recently been developed for use in the semiconductor industry [cite journal
author = H. Yu, R. Bellair, R.M. Kannan, S. Brock
title = Engineering Strength, Porosity, and Emission Intensity of Nanostructured CdSe Networks By Altering The Building Block Shape
journal = Journal of the American Chemical Society
year = 2008
volume = 130
issue = 15
pages = 5054–5055
doi = 10.1021/ja801212e
]

Uses

There are a variety of tasks for which aerogels are used.

*Commercially, aerogels have been used in granular form to add insulation to skylights.
*Transparent silica aerogel would be very suitable as a thermal insulation material for windows, significantly limiting thermal losses of buildings. After several trips on the Vomit Comet, one [http://zerogaerogel.com research team] has shown that producing aerogel in a weightless environment can produce particles with a more uniform size and reduce the Rayleigh scattering effect in silica aerogel, thus making the aerogel less blue and more transparent.
*Its high surface area leads to many applications, such as a chemical absorber for cleaning up spills (see adsorption). This feature also gives it great potential as a catalyst or a catalyst carrier.
*Aerogel particles are also used as thickening agents in some paints and cosmetics.
*Aerogels are being tested for use in targets for the National Ignition Facility.
*Aerogel performance may be augmented for a specific application by the addition of dopants, reinforcing structures, and hybridizing compounds. Using this approach, the breadth of applications for the material class may be greatly increased.
*Commercial manufacture of aerogel 'blankets' began around the year 2000. An aerogel blanket is a composite of silica aerogel and fibrous reinforcement that turns the brittle aerogel into a durable, flexible material. The mechanical and thermal properties of the product may be varied based upon the choice of reinforcing fibers, the aerogel matrix, and opacification additives included in the composite.
*NASA used aerogel to trap space dust particles aboard the Stardust spacecraft. The particles vaporize on impact with solids and pass through gases, but can be trapped in aerogels. NASA also used aerogel for thermal insulation of the Mars Rover and space suits. [ [http://marsrovers.jpl.nasa.gov/mission/sc_rover_temp_aerogel.html Preventing heat escape through insulation called "aerogel"] , "NASA CPL"] [ [http://www.aero.org/publications/crosslink/fall2006/backpage.html Down-to-Earth Uses for Space Materials] , "The Aerospace Corporation"]
*The US Navy is evaluating aerogel undergarments as passive thermal protection for divers. [cite journal |last=Nuckols |first=M. L. |coauthors=Chao J. C. and Swiergosz M. J. |title=Manned Evaluation of a Prototype Composite Cold Water Diving Garment Using Liquids and Superinsulation Aerogel Materials |journal=US Naval Experimental Diving Unit Technical Report |volume=NEDU-05-02 |date=2005 |url=http://archive.rubicon-foundation.org/3487 |accessdate=2008-04-21 ]
*Aerogels are also used in particle physics as radiators in Cherenkov effect detectors. ACC system of the Belle detector, used in the Belle Experiment at KEKB, is a recent example of such use. The suitability of aerogels is determined by their low index of refraction, filling the gap between gases and liquids, and their transparency and solid state, making them easier to use than cryogenic liquids or compressed gases. Their low mass is also advantageous for space missions.
*Resorcinol-formaldehyde aerogels (polymers chemically similar to phenol formaldehyde resins) are mostly used as precursors for manufacture of carbon aerogels, or when an organic insulator with large surface is desired. They come as high-density material, with surface area about 600 m²/g.
*The first residential use of aerogel as an insulator is in the Georgia Institute of Technology's Solar Decathalon House where it is used as an insulator in the semi-transparent roof.
*Metal-aerogel nanocomposites can be prepared by impregnating the hydrogel with solution containing ions of the suitable noble or transition metals. The impregnated hydrogel is then irradiated with gamma rays, leading to precipitation of nanoparticles of the metal. Such composites can be used as eg. catalysts, sensors, electromagnetic shielding, and in waste disposal. A prospective use of platinum-on-carbon catalysts is in fuel cells.
*Aerogel can be used as a drug delivery system due to its biocompatibility. Due to its high surface area and porous structure, drugs can be adsorbed from supercritical CO2. The release rate of the drugs can be tailored based on the properties of aerogel. [cite journal
author = Smirnova I., Suttiruengwong S., Arlt W.
title = Feasibility study of hydrophilic and hydrophobic silica aerogels as drug delivery systems
journal = Journal of Non-Crystalline Solids
year = 2004
volume = 350
issue =
pages = 54–60
doi = 10.1016/j.jnoncrysol.2004.06.031
] [From the [http://www.tvt.cbi.uni-erlangen.de/eng/research/thermo_pharma/thermo_pharmazie_e.htm Research group Pharmaceutical Thermodynamics] of Friedrich - Alexander - University Erlangen - Nuremberg]
*Carbon aerogels are used in the construction of small electrochemical double layer supercapacitors. Due to the high surface area of the aerogel, these capacitors can be 2000 to 5000 times smaller than similarly rated electrolytic capacitors. [ [http://powerelectronics.com/portable_power_management/batteries/power_aerogel_capacitors_support/ Aerogel Capacitors Support Pulse, Hold-Up, and Main Power Applications] ] Aerogel supercapacitors can have a very low impedance compared to normal supercapacitors and can absorb or produce very high peak currents.
*Dunlop has recently incorporated aerogel into the mold of its new series of tennis racquets, and has previously used it in squash racquets. [ [http://www.pwp.com/squashrackets.asp?id=3&cat=Dunlop%20squash%20rackets Dunlop Squash Racquets] ]
*Chalcogels have shown promise in absorbing the heavy metal pollutants mercury, lead and cadmium from water. [Carmichael, Mary. [http://www.msnbc.msn.com/id/20123389/site/newsweek/ First Prize for Weird: A bizarre substance, like 'frozen smoke,' may clean up rivers, run cell phones and power spaceships.] Newsweek International, 2007-08-13. Retrieved on 2007-08-05.]
*Aerogel is used to introduce disorder into superfluid Helium-3. [Halperin, W. P. and Sauls, J. A., Helium-Three in Aerogel [http://arxiv.org/abs/cond-mat/0408593v1] .]

Production

Silica aerogel is made by drying a hydrogel composed of colloidal silica in an extreme environment. Specifically, the process starts with a liquid alcohol like ethanol which is mixed with a silicon alkoxide to form a silicon dioxide sol gel (silica gel). Then, through a process called supercritical drying, the alcohol is removed from the gel. This is typically done by exchanging the ethanol for liquid acetone, allowing a better miscibility gradient, and then onto liquid carbon dioxide and then bringing the carbon dioxide above its critical point. A variant on this process involves the direct injection of supercritical carbon dioxide into the pressure vessel containing the aerogel. The end result removes all liquid from the gel and replaces it with gas, without allowing the gel structure to collapse or lose volume.

Aerogel composites have been made using a variety of continuous and discontinuous reinforcements. The high aspect ratio of fibers such as fiberglass have been used to reinforce aerogel composites with significantly improved mechanical properties.

Resorcinol-formaldehyde aerogel (RF aerogel) is made in a way similar to production of silica aerogel.

Carbon aerogel is made from a resorcinol-formaldehyde aerogel by its pyrolysis in inert gas atmosphere, leaving a matrix of carbon. It is commercially available as solid shapes, powders, or composite paper.

Safety

Silica-based aerogels are not known to be carcinogenic or toxic.However, they are a mechanical irritant to the eyes, skin, respitatory tract and digestive system.They also can induce dryness of the skin, eyes and mucous membranes. Therefore, it is recommended that protective gear including gloves and eye gogglesbe worn whenever handling aerogels. [http://www.aspenaerogels.com/products/pdf/Cryogel_x201_MSDS_11_07.pdf]

However, safety depends on the material from which the aerogel is made – it will be carcinogenic or toxic if made from a gel with such characteristics.

See also

* Gel
* Nanogel
* Sol gel
* Hydrogel
* Xerogel
* SEAgel
* Chalcogel

References

* NASA's Stardust comet return mission on [http://stardust.jpl.nasa.gov/tech/aerogel.html AEROGEL.]
* cite journal
author = J. Fricke, A. Emmerling
title =Aerogels—Preparation, properties, applications
journal= Structure & Bonding
year= 1992
volume = 77
issue =
pages= 37–87
doi = 10.1007/BFb0036965

* cite journal
author = N. Hüsing, U. Schubert
title =Aerogels - Airy Materials: Chemistry, Structure, and Properties
journal= Angewandte Chemie International Edition
year= 1998
volume = 37
issue = 1/2
pages= 22–45
doi = 10.1002/1521-3773(19980202)37:1/2<22::AID-ANIE22>3.0.CO;2-I

*cite journal
author = Pierre A. C., Pajonk G. M.
title = Chemistry of aerogels and their applications
journal = Chemical Reviews
year = 2002
volume = 102
issue = 11
pages = 4243–4266
doi = 10.1021/cr0101306

External links

* [http://stardust.jpl.nasa.gov/photo/aerogel.html NASA photos of aerogel]
* [http://fourier.mech.virginia.edu/~microhx/thermalproperties.html Copy of Lawrence Berkeley National Laboratory page on the Thermal Properties of Silica Aerogels]
* [http://lbl.gov/Science-Articles/Archive/aerogel-insulation.html Another LBL article covering the development of aerogels]
* [http://stardust.jpl.nasa.gov/overview/faq.html#aerogel Aerogel FAQ at NASA JPL]
* [http://connectexpress.com/~ips/aerogel/faq.html Aerogel FAQ]
* " [http://wired.com/news/technology/1,70268-1.html A Solid That's Light As Air] ", by Dylan Tweney. "Wired", 23 February 2006
* [http://neme.org/main/262/Aerosculpture Aer( )sculpture, Using a Space Material as a Sculptural Medium]
* [http://science.nasa.gov/newhome/help/tutorials/housefuture.htm Aerogel insulates The House of the Future?]
* [http://aerogel.com/ American company researching and producing flexible aerogel blankets for insulation]
* [http://www.airglass.se/ Swedish company researching aerogel glass for windows]
* [http://insulatingglass.blogspot.com/ Blog concerned with research, development and manufacture of double glazing insulating glass units with aerogel components]
* [http://www.pwp.com/squashrackets.asp?id=3&cat=Dunlop%20squash%20rackets Dunlop develop squash racquets incorporating aerogel]

* [http://www.physikclub.de/projekte-des-physikclubs/projekte-2007-08/aerogele/ Site about producing and working with aerogel]
* [http://www.timesonline.co.uk/tol/news/uk/science/article2284349.ece Scientists hail ‘frozen smoke’ as material that will change world]
* [http://www.kqed.org/quest/television/view/776 Video of Alex Gash Lawrence Livermore National Laboratory U.S.A. Scientiate showing aerogel and it's properties]
* [http://www.solgel.com/articles/april01/aerog1.htm Glass from Aerogels]
* [http://www.solgel.com/articles/Dec03/gal2.asp An artistic gallery of Aerogels]
* [http://www.cdscc.nasa.gov/PDFs/aerogel.pdf A PDF file on how to make Areogel]
* [http://eetd.lbl.gov/ECS/aerogels/sa-making.html A site that explains how to make Aerogel]


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